Technical Catalogue 2002 - Provendor

MITSUBISHI ELECTRIC Controllers, Servo Amplifiers & Motors

Motion Controller MELSEC System Q

Technical Catalogue

2002

Mitsubishi Electric Motion Controllers System Q

New 2002

Mitsubishi Motion Controllers are integrated in modular fashion in the MELSEC System Q. The multiprocessor technology of the MELSEC System Q permits PLC CPUs, Motion CPUs and PC CPUs to be used jointly on a common base unit. While the exchange of data via the system bus of the base unit is optimised, space requirements and system costs are also clearly reduced. Up to 96 axes can be controlled very rapidly in one system via the Mitsubishi SSCNET and without complex wiring. This reduced wiring requirement and simple connection thanks to “plug-and-play” produces a simple and flexible, but also a powerful movement system.

Further Publications within the Factory Automation Range Technical Catalogues Servo Amplifiers

Technical Catalogues

Product catalogues for servo amplifiers, motors and accessories of the MELSERVO series

Technical Catalogues Inverters Product catalogues for frequency inverters, control panels, and accessories

Technical Catalogues PLCs Product catalogues for programmable logic controllers and accessories for the MELSEC series

Technical Catalogue Networks Product catalogue for Master and Slave modules as well as accessories for the use of programmable logic controllers in open networks and MELSEC networks

Technical Catalogue HMI Product catalogue for operator terminals, process visualisation and programming software as well as accessories

Additional Services You will find current information on updates, alterations, new items, and technical support on MITSUBISHI ELECTRIC's web pages (www.mitsubishi-automation.com). The products section of the MITSUBISHI home site includes various documentations of the whole product range by MITSUBISHI ELECTRIC as well as the current version of this catalogue on hand. All manuals and catalogues can be downloaded. The content is updated daily and to date is provided in English and German.

About this catalogue Due to the constantly growing product range, technical alteration, and new or changed characteristical features, this catalogue is updated frequently. Texts, figures and diagrams shown in this product catalogue are intended exclusively for explanation and assistance in planning and ordering the motion controllers and the associated accessories. Only the manuals supplied with the units are relevant for installation, commissioning and handling of the units and the accessories. The information given in these documentations must be read before installation and commissioning of the units or software. Should questions arise with regard to the planning of modules described in this product catalogue, do not hesitate to contact the German branch of MITSUBISHI ELECTRIC EUROPE B.V. in Ratingen or one of its distributors (see cover page). © MITSUBISHI ELECTRIC EUROPE B.V. 07/2002 (1st edition)

2

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

CONTENTS

Q MOTION CONTROLLER SYSTEM DESCRIPTION 웇 Introduction to Mitsubishi Motion Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 웇 System components and combination possibilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 웇 System configuration (overview on an 8 axis system) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 웇 System configuration (overview on an 32 axis system) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 BASIC COMPONENTS 웇 Overview on hardware components and accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 웇 Motion Controller CPUs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 웇 System modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 웇 Overview on servo amplifiers and motors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 SOFTWARE 웇 Programming the Motion Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 웇 Software package description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 웇 Application of the programming environments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 웇 Applied programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 웇 Screenshots of the different software packages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 ACCESSORIES 웇 Dividing unit, battery unit and connection cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 웇 SSCNET cables, connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 웇 Manual pulse generator, serial absolute synchronous encoder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 DIMENSIONS 웇 CPUs and system modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 웇 Serial absolute synchronous encoder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 웇 Manual pulse generator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 APPENDIX 웇 Planning aid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 웇 Order form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 웇 Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

MITSUBISHI ELECTRIC

Q MOTION CONTROLLER

3

SYSTEM DESCRIPTION

Mitsubishi Motion Control Motion control systems geared to the needs of your specific application Mitsubishi Motion Controllers are integrated in a modular fashion in the MELSEC System Q. While up to 3 Motion CPUs control the movements via the max. 96 connected MR-J2S-쏔B series servo amplifiers and HC-xxx쏔쏔 series motors, all modules of the System Q, including network connections, are available to the Q CPU. The user is provided with a broad spectrum of applications by distributing the actuation tasks to several different CPU modules, which automatically and cyclically exchange data via the system bus of the base unit. Motion controllers can tap huge performance reserves for optimising production processes and improving product quality. Today, motion controller systems play a dominant role in machine tools, printing and paper processing machines, modern packaging machines, filling and canning machines in the food industry, grinding, polishing and engraving machines, X-Y-Z indexing tables and many automation and handling systems in semiconductor production lines. Mitsubishi motion controllers can control 8 (Q172CPUN) or even up to 32 servo axes (Q173CPUN) simultaneously.

The Motion network: SSCNET SSCNET (Servo System Controller NETwork) is a high-speed synchronous serial communication network that delivers better performance and more reliability than conventional control networks. SSCNET supports batch control of up to 96 axes and fast and simple connections with one-touch bus cabling. The bus cycle time is only 0.8 ms.

U n CP Motio mon Com mory me U Q CP

Bus PLC

EC MELS odule I/O m

EC MELS t module igen intell

EC MELS TION Q MO module m te s sy

EC MELS odule I/O m

EC MELS ications un comm module

NET SSC

Servo fier ampli

Servo fier ampli

Servo fier ampli

r Moto r Moto

r Moto

Powerful programming environment and programming tools A powerful, Windows-based programming environment ensures a fast learning curve for new users, despite the power and complexity of the system. The comprehensive range of standardised software tools cuts programming time. All parameters and settings are configured with a standard software package; no separate servo setup software is required! The motion controller and its associated servo drives and motors are also configured directly on the computer screen. The individual combinations of system components are checked through automatically and any errors are signalled immediately, thus eliminating the possibility of system crashes! Mitsubishi Electric’s specially-developed SFC sequential function chart language isolates the system’s multitasking operation from external influences. This means

drastically faster servo amp response times and ultra-short movement cycles. Mitsubishi motion controllers can synchronise up to 96 axes simultaneously. Programming is performed quickly and efficiently online with a Virtual Mechanical Editor. Mechanical master shafts, clutches and gears can be replaced by more efficient electronic versions. And you can forget about time-consuming text programming! Complex mechanical processes can be solved with graphical cam disks (CAM). The logic of the Q CPU motion controller is programmed in instruction list (IL), ladder diagram (LD), function block diagram (FBD) or in IEC 1131.3-compatible structured text.

System configuration (see figure on the right) 앬 A Motion CPU cannot be operated alone in a multi CPU system, but rather only in conjunction with a Q CPU. 앬 A max. of any 4 CPU modules can be combined in a multi CPU system. A maximum of 3 motion CPUs can therefore be operated in one

system.

앬 Encoders and external signals are sent to the Motion CPU via the Q172LX, Q172EX and Q173PX motion system modules. 앬 A Motion CPU can address 256 digital inputs and outputs, and process the 16 inputs of a QI60 Interrupt module for the purposes of

program control.

앬 Batch control of 50 W – 7 kW servo motors is possible in combination with the MR-J2-B servo amps in an SSCNET communications net-

work. (Q172CPUN: max. 8 axes, Q173CPUN: max. 32 axes).

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Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

SYSTEM DESCRIPTION

System Components and Combinations Possibilities Multi processor technology

I/O modules

Special function modules

앬 A Motion CPU cannot be operated

앬 One Motion CPU can address 256 digi-

A Motion CPU cannot access special function modules or network modules (except analog modules).

alone in a multi CPU system, but rather only in conjunction with a Q CPU. 앬 A main base unit accommodates up to 4 CPU modules. A maximum of 3 Motion CPU modules can therefore be operated in one system. 앬 The first CPU on a base unit must always be a Q CPU.

Extension base units 앬 Up to 7 extension base units can be

connected to the main base unit via expansion cables. 앬 Q Motion system modules, encoders and hand wheels can be integrated. 앬 Only one Motion CPU can access the Q172LX, Q172EX and Q173PX Motion system modules. These modules can be mounted at any desired location on the main or extension base unit. 앬 There is a limit to the number of Q Motion system modules, encoders and hand wheels which can be assigned to a Motion CPU.

tal inputs and outputs, thereby accessing System Q input/output modules. Max. number per module

Components

Q172CPUN

Q173CPUN

Manual pulse generator (MR-HDP01)

3

3

Serial encoder (absolute synchronous and incremental encoder)

8

12

Q172LX (servo external signals interface module)

1

4

Q172EX (serial absolute synchronous encoder interface module)

4

6

Q173PX (manual pulse generator interface module)

3

4

The positioning data, parameters and SFC and servo programs are protected against data loss for a brief period by the integrated battery in the event of a power supply voltage failure. An external battery must be connected to the Motion CPU, if the power supply is switched off for an application for more than 200 hours (approx. 8 days). The optional external battery should therefore always be provided for extended operational interruptions.

앬 A QI60 Interrupt module (16 inputs) can

be assigned to a motion CPU in order to control the execution of programs.

Combination possibilities Certain combinations are possible for the selection and use of the CPUs. The combination possibilities can be found in the opposite tables. Some of the CPUs can be used as a master or as a slave CPU, however the master CPU must always be plugged as the first CPU next to the mains adapter to the far left. Combined with other CPUs the PC CPU must be positioned to the far right slot. Depending on the CPUs used the power supply capacity must be accounted for accordingly.

External battery for Motion CPU modules

Multi processor PLC CPUs

Motion CPUs

PC CPUs

CPU types

Q02CPU Q02HCPU Q06HCPU Q12HCPU Q25HCPU

Q172CPUN Q173CPUN

PPC-CPU686(MS)-64 PPC-CPU686(MS)-128

Combination possibilities

Up to 4 CPUs can be combined

In combination with a PLC CPU as Master

As Master single use only, as Slave in combination with a PLC CPU as Master

Max. number usable CPUs per system

Max. 4

Max. 3

Max. 1

Application (hierarchy)

Master/slave

Slave

Master/slave

CPUs

Axes

3

M M M

2

M M

M M

M

M

1

MITSUBISHI ELECTRIC

96

M M

64

M

M

M

Q MOTION CONTROLLER

32

5

SYSTEM DESCRIPTION

System Configuration (8 Axis System with Q172CPUN) PLC CPU햲 Software: GX (IEC) Developer

Motion CPU Software: MT Developer Main base unit Q33B/Q35B/Q38B/Q312B

PLC Bus Connection cable QC첸첸B Battery unit Q170BAT

SSCNET (max. 8 axes per line)

MR-HDP01 QJ61BT11

Manual pulse generator

QJ61BR11

Encoder interface Q172EX햳

Pulse generator interface module Q173PX햳

Cable Q172J2BCBL첸M-B

External signals interface Q172LX햳

System Q I/O module

System Q Special function module햴

Serial absolute synchronous encoder MR-HENC Termination connector

Cable MR-J2HBUS첸M

MR-A-TM

Servo amplifier MR-J2S-첸B MR-J2-첸B

Operator terminal (GOT or MAC E series)

Servo motors

QJ61BT11

QJ61BR11

햵

Extension base unit Q52B/Q55B/Q63B/Q65B/Q68B/Q612B

Notes: 햲 The first CPU on the main base unit must always be a PLC CPU (e.g. Q02/Q02H/Q06H/Q12H/Q25H). 햳 In a multi CPU system only one Motion CPU can access the Q Motion system modules. These modules can be mounted at any desired location on the main or extension base units. 햴 A Motion CPU cannot access special function modules or network modules. 햵 The Q52B and Q55B extension base units do not have a slot for a power supply unit.

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Q MOTION CONTROLLER

QJ61BT11

QJ61BR11

Power supply Q6첸P

System Q I/O module

System Q special function module햴

MITSUBISHI ELECTRIC

SYSTEM DESCRIPTION

System Configuration (32 Axis System with Q173CPUN) PLC CPU햲 Software: GX (IEC) Developer

Motion CPU Software: MT Developer Main base unit Q33B/Q35B/Q38B/Q312B

PLC Bus

Dividing unit Q173DV SSCNET

CN1

SSCNET

CN2

SSCNET

CN3

SSCNET

CN4

Cable Q173DVCBL첸M

Connection cable QC첸첸B

Q173DV DATE

MR-HDP01

SSCNET (max. 8 axes per line)

QJ61BT11

Manual pulse generator

QJ61BR11

Encoder interface Q172EX햳

Cable MR-J2HBUS첸M

External signals interface Q172LX햳

System Q Special function module햴

System Q I/O module

Serial absolute synchronous encoder MR-HENC Termination connector

Cable MR-J2HBUS첸M

MR-A-TM

Servo amplifier MR-J2S-첸B MR-J2-첸B Operator terminal (GOT or MAC E series)

QJ61BT11

Servo motors

QJ61BR11

햵

Extension base unit Q52B/Q55B/Q63B/Q65B/Q68B/Q612B

Notes: 햲 The first CPU on the main base unit must always be a PLC CPU (e.g. Q02/Q02H/Q06H/Q12H/Q25H). 햳 In a multi CPU system only one Motion CPU can access the Q Motion system modules. These modules can be mounted at any desired location on the main or extension base units. 햴 A Motion CPU cannot access special function modules or network modules. 햵 The Q52B and Q55B extension base units do not have a slot for a power supply unit.

MITSUBISHI ELECTRIC

QJ61BT11

QJ61BR11

Power supply Q6첸P

System Q I/O module

System Q special function module햴

Q MOTION CONTROLLER

7

BASIC COMPONENTS

Overview on Hardware Components The System Q has the multiple CPU system function which also permits PLC CPUs, Motion CPUs and PC CPUs to be loaded together on one base unit. A Motion CPU can use the SSCNET that rapidly controls up to 96 axes in a single system and saves wiring. The personal computer CPU (Q-PC) enables the access to I/O modules and intelligent function modules and the communication of all CPUs with each other. The entire range of System Q modules is available by means of the combined use of the Q Motion CPUs with the CPUs of the MELSEC System Q. The table below contains an overview of the available System Q modules and the appropriate accessories. Further details can be obtained from the System Q technical catalogue.

Item

MELSEC System Q PLC CPU modules

MELSEC System Q main base unit

MELSEC System Q extension base unit

MELSEC System Q extension cable for base units

8

Management Servo amplifier QY42

QX41 Q06HCPU

POWER

Q06HCPU

MITSUBISHI

QX41

Q173CPU MODE RUN ERR. M.RUN BAT. BOOT

MODE RUN ERR. USER BAT. BOOT

MODE RUN ERR. USER BAT. BOOT

Q61P-A2

MITSUBISHI

KB/MOUSE

PPC-CPU686

PC-CARD 1

2

QX41

24VDC 4mA

B. RUN

RDY

USER

ERR.

EXIT

BAT.

B. RUN

B.RST

SERIAL 1 RESET

BASE UNIT MODEL Q38B SERIAL 0205020E PULL

PULL

PULL

USB

USB

Servo motor

USB

USB

EX.I/F

PULL 100

RS-232

RS-232

RS-232

RGB

LINK /TX UPT

MITSUBISHI

FD

IDE

SSCNET Management

Personal computer

ETHERNET

Type

Description

Q02CPU

Sequence program capacity PLC inputs/outputs Processing speed/log. instruction

Max. 28 k steps Max. 4096/8192 79 ns

Certification

132561

Q02HCPU

Sequence program capacity PLC inputs/outputs Processing speed/log. instruction

Max. 28 k steps Max. 4096/8192 34 ns

127585

Q06HCPU

Sequence program capacity PLC inputs/outputs Processing speed/log. instruction

Max. 60 k steps Max. 4096/8192 34 ns

Q12HCPU

Sequence program capacity PLC inputs/outputs Processing speed/log. instruction

Max. 124 k steps Max. 4096/8192 34 ns

130217

Q25HCPU

Sequence program capacity PLC inputs/outputs Processing speed/log. instruction

Max. 252 k steps Max. 4096/8192 34 ns

130218

Q33B

For power supply, Q CPU and 3 other modules

Q35B

For power supply, Q CPU and 5 other modules

Q38B

For power supply, Q CPU and 8 other modules

UL/cUL, CE

Art. no.

130216

136369 UL/cUL

127586 127624

Q312B

For power supply, Q CPU and 12 other modules

129566

Q52B

2 module slots

140376

Q55B

5 module slots

Q63B

For power supply and 3 modules

Q65B

For power supply and 5 modules

Q68B

For power supply and 8 modules

129578

Q612B

For power supply and 12 modules

129579

QC05B

Length: 0,45 m

140380

QC06B

Length: 0,6 m

129591

QC12B

Length: 1,2 m

QC30B

Length: 3,0 m

QC50B

Length: 5,0 m

129644

QC100B

Length: 10,0 m

129645

Q MOTION CONTROLLER

Without power supply; for the connection use cable QC05B

140377 UL/cUL

UL/cUL

136370 129572

129642 129643

MITSUBISHI ELECTRIC

BASIC COMPONENTS

Item

MELSEC System Q Power supply modules

Type

Description

Certification

Art. no.

Q61P-A2

Input: 200 to 240 V AC, output: 5 V DC / 6 A

UL/cUL, CE

127593

Q62P

Input: 100 to 240 V AC, output: 5 V DC / 3 A and 24 V DC / 0,6 A

UL/cUL, CE

140379

Q63P

Input: 24 V DC, output: 5 V DC / 6 A

UL/cUL, CE

136371

Q64P

Input: 100 to 240 V AC, output: 5 V DC / 8,5 A

CE

140718

MELSEC System Q I/O modules

For detailed informations please refer to the Technical Catalogue MELSEC System Q

—

MELSEC System Q special function modules

For detailed informations please refer to the Technical Catalogue MELSEC System Q; in a multi CPU system special function modules are asigned to the Q CPU.

—

MELSEC System Q network modules

For detailed informations please refer to the Technical Catalogue Networks; in a multi CPU system network modules are asigned to the Q CPU.

—

Programming cable (for RS232 or USB interface)

Please refer to the Technical Catalogue MELSEC System Q

Q172CPUN

Max. 8 axes control

Q173CPUN

Max. 32 axes control

Q172LX

Servo external signals interface modules For the connection of the signals of 8 axes. For each axis the following signals can be detected: Limit switch signals for max. and min. travel, one stop switch, and one machine zero or one signal for toggling from speed to position control.

Q172EX Q173PX Q173DV

The dividing unit serves as interface multiplier on the Q173CPUN for the connection of up to 4 SSCNET lines with 8 axes each. With holding device for the battery MRBAT

140586

Connection cable for Q173CPUN and Q173DV

Q173DVCBL05M

For the connection between the Motion CPU and the dividing unit, length 0.5 m

140587

Q173DVCBL1M

For the connection between the Motion CPU and the dividing unit, length 1 m

140588

Battery adapter for Q172CPUN

Q170BAT

External holding device for the battery MRBAT

142204

MELSEC System Q motion controller CPUs

MELSEC System Q motion controller system modules

SSCNET dividing unit with battery insert for Q173CPUN

Q172J2BCBL05M-B

UL/cUL, CE

142695 142696

UL/cUL, CE

140583

Interface module for 2 serial absolute synchronous encoder MR-HENC

UL/cUL, CE

140584

Input module for 3 manual pulse generators MR-HDP01 or synchronous encoders

UL/cUL, CE

140585

For the connection between Q172CPUN and servo amplifier, with connection for the battery adapter Q170BAT

lenght 0.5 m

142206

length 1 m

142207

length 5 m

142205

SSCNET bus cable for Q170BAT and MR-J2S-B

Q172J2BCBL1M-B

Battery for Q173DV and Q170BAT

MR-BAT

Back-up battery for the absolute position detection of the Motion CPU

103862

Manual pulse generator for Motion controller

MR-HDP01

Electronic manual pulse generator / incremental set value generator 25 pulses/revolution, max. allowable speed: 200 r/min; power supply: 5 V DC

128728

Synchroneous encoder for Motion controller

MR-HENC

Resolution: 16384 pulses/revolution, max. allowable speed: 4300 r/min

138304

Encoder cable

MR-HSCBL첸M

Connection betwen the encoders MR-HENC and the Q172EX module, available length: 2 m, 5 m, 10 m, 20 m, 30 m (for further details please refer to the MR-J2S series Technical Catalogue.)

—

SSCNET bus cable for MR-J2S

MR-J2HBUS첸M

Connection between the servo amplifiers one below the other, available length: 0.5 m, 1 m and 5 m (for further details please refer to the MR-J2S series Technical Catalogue.)

—

SSCNET termination connector

MR-A-TM

Connected to the last servo amplifier by SSCNET

70004

PCMCIA SSCNET interface card

A30CD-PCF

PCMCIA card (type II) for notebooks with one channel

131237

Q172J2BCBL5M-B

Q170CDCBL3M Connection cable for PCMCIA card

Q170CDCBL5M

ISA SSCNET interface board

A30BD-PCF

Q170CDCBL10M

Connection between A30CD-PCF and Q172CPUN/Q173CPUN

Q170BDCBL5M Q170BDCBL10M

MITSUBISHI ELECTRIC

140570 140576

length 10 m

140582 134153

ISA Bus board for PC with 2 channels

Q170BDCBL3M Connection cable for ISA board

length 3 m length 5 m

Connection between A30BD-PCF and Q172CPUN/Q173CPUN

length 3 m

140570

length 5 m

140576

length 10 m

140582

Q MOTION CONTROLLER

9

BASIC COMPONENTS

왎 Motion Controller CPUs The high-speed dynamic motion CPU The motion controller CPU controls and synchronizes the connected servo amplifiers and servo motors. A motion system besides the controller CPU as well includes a PLC CPU. Only after combining a highly dynamic positioning control and a PLC an innovative and autarkical motion control system is created. While the Motion CPU controls large-scale servo movements the PLC CPU is responsible for the machine control and the communication.

Q173CPU MODE RUN ERR. M.RUN BAT. BOOT

FRONT SSCNET CN2

Special features: 앬 Using multiple CPUs to distribute the load improves the overall

CN1 PULL

USB

RS-232

앬 앬 앬 앬 앬 앬

performance of the whole system Use of up to 3 motion CPUs within one system Large scale control system for up to 96 axes per system Interpolation of 4 axes simultaneously Software cam control Virtual and real master axes Integration in the high-speed SSCNET network for communication with high-performance servo amplifiers at up to 5.6 Mbit/s

Specifications

Q172CPUN

Q173CPUN

Type

Motion CPU

Motion CPU

Input/output points

8192

8192

Number of control axes

8

32

Interpolation functions

Linear interpolation for up to 4 axes, circular interpolation for 2 axes, helical interpolation for 3 axes

Positioning

control modes

PTP (Point to Point), speed control/speed positioning control, fixed pitch feed, constant speed control, position follow-up control, speed switching control, high-speed oscillation control, synchronous control (SV22)

acceleration/ deceleration

Automatic trapezoidal acceleration/deceleration; S-curve acceleration/deceleration

compensation

Backlash compensation; electronic gear

Programming language

Motion SFC, software conveyor assembly (SV13), virtual mechanical support language (SV22)

Program capacity

14 k steps

Number of positioning points

3200

Interface

USB, RS232C, SSCNET

Real I/O points (PX/PY) Internal current consumption (5 V DC)

kg 0.25

Weight Dimensions (W x H x D) Order information

10

256 (these I/Os can be directly assigned to the Motion CPU.) A 1.62 mm 27.4 x 98 x 114.3 Art. no. 142695

Q MOTION CONTROLLER

1.75 0.25 27.4 x 98 x 114.3 142696

MITSUBISHI ELECTRIC

BASIC COMPONENTS

Motion CPU Specifications (Motion SFC) Item

Q172CPUN

Program capacity

Motion SFC program

Programm code total (Motion SFC flow chart+Operation control+transition)

287 kByte

Text total (operation control+transition)

224 kByte

Number of Motion SFC programs

256 (no. 0 to 255)

Motion SFC chart size/program

Max. 64 kByte per program (included Motion SFC chart comments)

Number of Motion SFC steps/program

Max. 4094 steps

Number of selective branches/branch

Max. 255

Number of parallel branches/branch

Max. 255

Parallel branch nesting

Up to 4 levels

Q173CPUN

Number of operation control programs

4096 in combination with F (once execution type) and FS (scan execution type) combined (F/FS0 to F/FS4095)

Number of transition programs

4096 (G0 to G4095)

Code size/program

Max. approx. 64k bytes (32766 steps)

Operation control program (F/FS)

Number of blocks(line)/program

Max. 8192 blocks (in the case of 4 steps(min)/blocks)

Transition program (G)

Number of characters/block

Max. 128 (comment included)

Number of devices/block (line)

Max. 64 (devices: constants, word devices, bit devices)

Nesting per block

Max. 32

Descriptive expression

Control program

Calculation expression/bit conditional expression

Transition program

Calculation expression/bit conditional expression/comparison conditional expression

Number of multi executed programs

Max. 256

Number of multi active programs

Max. 256 steps/all programs

Program execution Executed tasks

Normal task

Executed in motion main cycle

Interrupt task

Fixed cycles (0.88 ms, 1.7 ms, 3.5 ms, 7.1 ms, 14.2 ms) 16 external interrupt points (QI60 interrupt module inputs) Executed with interrupt from Q PLC CPU (when PLC CPU dedicated command S(P).GINT is executed)

NMI task

16 external interrupt points (QI60 interrupt module inputs)

SV13

0.88 ms (1. to 8. axis)

0.88 ms (1. to 8. axis) 1.77 ms (9. to 16. axis) 3.55 ms (17. to 32. axis)

SV22

0.88 ms (1. to 4. axis) 1.77 ms (5. to 8. axis)

0.88 ms (1. to 4. axis) 1.77 ms (5. to 12. axis) 3.55 ms (13. to 24. axis) 7.11 ms (25. to 32. axis)

Number of I/O points (X/Y)

8192 points

Number of real I/O points (PX/PY)

Total 256 points (these inputs/outputs can be assigned directly to the Motion CPU.)

Processing time

Internal relays (M) Latch relays (L)

Number of devices

8192 points (in total)

Link relays (B)

8192 points

Annunciators (F)

2048 points

Special relays (M)

256 points

Data registers (D)

8192 points

Link registers (W)

8192 points

Special registers (D)

256 points

Number of motion register (#0)

8192 points

Number of coasting timers (FT)

1 point (888 µs)

MITSUBISHI ELECTRIC

Q MOTION CONTROLLER

11

BASIC COMPONENTS

왎 Servo External Signals Interface Module Q172LX Capture of external servo signals

Q172LX

The Q172LX input module is used in conjunction with a Q Motion CPU to capture external servo signals. Up to 8 axes can be evaluated per module. In this way, camswitching values, limit switching positions, stop positions and operating modes can be easily incorporated into the system.

Special features: 앬 앬 앬 앬 앬

Item

32 address points for 8 axes for each 4 inputs Bipolar inputs for positive and negative logic Galvanic isolation of the inputs by means of photocoupler Shortest response time of < 0.4 ms Modular extension possible

Q172LX

External servo signals

Number of inputs

Servo external signals: 32 points (for 8 axes per 4 inputs for: - proximity switch (upper stroke limit) - proximity switch (lower stroke limit) - stop input - proximity dog/speed-position switching signal)

Input method

Sink/source type

Isolation method

Photocoupler

Rated input voltage

12/24 V DC

Operating voltage range

10.2 to 26.4 V DC (12/24 V DC +10/ -15%, ripple ratio 5% or less)

Rated input current

2 mA at 12 V DC, 4 mA at 24 V DC

ON voltage/current

Min. 10 V / min. 2.0 mA

OFF voltage/current

Max. 1.8 V / max. 0.18 mA

Input resistance

About 5.6 kΩ

Response time of the upper/lower stroke limit and the STOP signal.

OFF → ON and ON → OFF: 1 ms

Response time of the proximity dog, speed-position OFF → ON and ON → OFF: CPU parameter setting (0.4 ms, 0.6 ms, 1 ms), default value: 0.4 ms switching signal. Inputs per group

32

Status indication

One LED per input

External connector type

40 pin connector

Applicable wire size

0.3 mm2

Applicable connector for the external connection

A6CON-1 (supplied with the module), A6CON-2 and A6CON-3 (optional)

Applicable connector/ terminal block converter module

A6TBXY36, A6TBXY54, A6TBXY70

Number of I/O points

32

Internal current consumption (5 V DC)

50 mA

Weight

0.15 kg

Order number

140583

12

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

BASIC COMPONENTS

왎 Serial Absolute Synchronous Encoder Interface Module Q172EX Capture and evaluation of encoder signals

Q172EX SY.ENC 1 2

TREN 1 2

SY.ENC1

The serial absolute synchronous encoder interface module Q172EX is a Motion system module for receiving and evaluating up to two serial absolute-value encoders. (Incremental encoders cannot be connected.) Via an external encoder (MR-HENC) it is possible to feed a setpoint source to the Motion system, which in turn is programmed as a guide axis. In addition to the interfaces for the signals of two absolute-value encoders, the Q172EX has two digital inputs with ultra-rapid response times.

Special features: 앬 Transfer rate of 2.5 MBit per second 앬 Resolution of 14 Bit 앬 Voltage-failure security of the absolute values by means of

SY.ENC2

Q172EX

Item

Digital inputs (tracking enable)

built-in buffer battery

앬 Shortest response times of < 0.4 ms 앬 Modular extension possible

Q172EX Number of inputs

2

Input method

Sink/Source type

Isolation method

Photocoupler

Rated input voltage

12/24 V DC

Operating voltage range

10.2 to 26.4 V DC (12/24 V DC +10/ -15%, ripple ratio 5% or less)

Rated input current

2 mA at 12 V DC, 4 mA at 24 V DC

ON voltage/current

Min. 10 V / min. 2.0 mA

OFF voltage/current

Max. 1.8 V / max. 0.18 mA

Input resistance

About 5.6 kΩ

Response time

OFF → ON ON → OFF

Status indication

CPU parameter setting (0.4 ms, 0.6 ms, 1 ms), default value: 0.4 ms One LED per input

Terminal arrangement

2 points (TREN and TREN.CO) in each of both SY.ENC connectors (20 pin connectors)

Number of encoder

2/module

Applicable encoder

Serial absolute synchronous encoder (MR-HENC)

Resolution

16384 pulses/revolution (14 Bit)

Transmission method

Serial

Communication speed

2.5 MBaud

Serial absolute Synchronous method synchronous encoder input External connector type

Counter-clock-wise (viewed from end of shaft) Via two 20 pin connectors

Recommended encoder cables MR-JHSCBL첸M-L (standard cable), MR-JHSCBL첸M-H (high flexible cable); available length (= 첸): 2, 5, 10, 20 and 30 m Cable length

Max. 30 m

Back up the absolute position By integrated battery A6BAT Battery service life time

15000 hours (with 2 connected encoders), 30000 hours (with one connected encoder) Ambient temperature 40 쎶C.

Internal current consumption (5 V DC)

70 mA

Weight

0.15 kg

Order number

140584

MITSUBISHI ELECTRIC

Q MOTION CONTROLLER

13

BASIC COMPONENTS

왎 Manual pulse generator interface module Q173PX Capture of external signals

Q173PX PLS.A PLS.B 1 1 2 2 3 3

TREN 1 2 3

The Manual pulse generator interface module Q173PX is used in a Motion system to receive the signals of up to 3 external incremental encoders or manual impulse generators (hand wheels). In addition to the inputs for the encoders, the Q173PX has three digital inputs with which the encoder signal counting procedure can be started (Encoder start signal).

Special features:

PULSER

Item

앬 앬 앬 앬

Bipolar inputs for positive and negative logic Galvanic isolation of the inputs by means of photocoupler Shortest response times of < 0.4 ms Modular extension possible

Q173PX

Encoder start signals

Number of inputs

3

Input method

Sink/Source type

Isolation method

Photocoupler

Rated input voltage

12/24 V DC

Operating voltage range

10.2 at 26.4 V DC (12/24 V DC +10/ -15%, ripple ratio 5% or less)

Rated input current

2 mA at 12 V DC, 4 mA bei 24 V DC

ON voltage/current

Min. 10 V / min. 1.0 mA

OFF voltage/current

Max. 1.8 V / max. 0.18 mA

Input resistance

ca. 5.6 kΩ

Response time

OFF → ON ON → OFF

Inputs per group

CPU parameter setting (0.4 ms, 0.6 ms, 1 ms), default value: 0.4 ms 1

Status indication

One LED per input

Number of encoders

3

Manual pulse Applicable types generator or Input voltage (high-level) synchronous encoder input Input voltage (low-level) Input frequency

Voltage-output type / open-collector type (5 V DC, recommended device: MR-HDP01) or differential output type (26L31 or equal) 3.0 to 5.25 V DC 0 to 1 V DC Max. 400.000 pulses/s (after magnification by 4)

External connector type

40 pin connectors

Applicable wire size

0.3 mm2

Applicable connector for the external connection

A6CON-1 (supplied with the module), A6CON-2 and A6CON-3 (optional)

Applicable connector / terminal block converter module

A6TBXY36, A6TBXY54, A6TBXY70 (optional)

Max. cable length

Voltage output/ open collector type

10 m

Differential output type

30 m

Number of I/O points

32

Internal current consumption (5 V DC)

110 mA (when one manual pulse generator and one encoder is connected)

Weight

0.150 kg

Order number

140585

14

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

BASIC COMPONENTS

왎 Servo Amplifiers and Motors MELSERVO MR-J2S첸B The recommended combinations of servo amplifiers and servo motors are listed in the tables below. For further details to the servo amplifiers please refer to the MELSERVO Technical Catalogue. There you can find detailed specifications to all servo motors as well as order informations to motor and encoder cables.

Rated Motor Series Speed [r/min]

HC-KFS

K

3000

HC-MFS

M

3000

HC-SFS

S

2000

HC-RFS

R

3000

Rated Servo Output Motor Capacity Model [kW]

MITSUBISHI

Servo Motor Type With Electromagnetic Brake (B) and Absolute Encoder

Amplifier Pairing MR-J2S Protective Structure

10B

0.05

HC-KFS053

쏹

0.1

HC-KFS13

쏹

0.2

HC-KFS23

0.4

HC-KFS43

0.75

HC-KFS73

0.05

HC-MFS053

0.1

HC-MFS13

0.2

HC-MFS23

0.4

HC-MFS43

0.75

HC-MFS73

0.5

HC-SFS52

1.0

HC-SFS102

1.5

HC-SFS152

2.0

HC-SFS202

3.5

HC-SFS352

5.0

HC-SFS502

7.0

HC-SFS702

쏹

20B

40B

60B

70B

100B

200B

350B

500B

700B

쏹

IP55

쏹 쏹 쏹 쏹 쏹

IP55

쏹 쏹 쏹 쏹 쏹 쏹

쏹

IP65

쏹 쏹 쏹 쏹

1.0

HC-RFS103

1.5

HC-RFS153

2.0

HC-RFS203

3.5

HC-RFS353

쏹

5.0

HC-RFS503

쏹

쏹 쏹 쏹

IP65

쏹

For further details please refer to the MR-J2-Super Technical Catalogue.

MITSUBISHI ELECTRIC

Q MOTION CONTROLLER

15

SOFTWARE

Components for Motion Controller Programming The Motion controller CPUs can be programmed using commercially available PCs or notebooks. Programming is implemented either via the USB or RS232 interface of the CPU or via the SSCNET Motion network. You thereby achieve maximum system performance in conjunction with

an optional SSCNET-ISA plug-in card for standard personal computers or via an SSCNET-PCMCIA plug-in card for notebooks. The user can choose between a multitude of options based on the choice of USB , RS232 or SSCNET interfaces for the Motion CPU and the PLC CPU.

On the following pages you can find an overview on all hardware and software peripheral equipment which is necessary for the programming.

SSCNET-ISA board A30BD-PCF Desktop computer

MT Developer

Communication via USB or RS232

GX (IEC) Developer

SSCNET-PCMCIA adapter A30CD-PCF

MT Developer GX (IEC) Developer

SSC NET communication

Notebook

GX (IEC) Developer

MT Developer

Q06HCPU

POWER

Q173PX

Q172CPU

PLS.A PLS.B TREN 1 1 1 2 2 2 3 3 3

MODE RUN ERR. USER BAT. BOOT

MODE RUN ERR. USER BAT. BOOT

Q61P-A2

SY.ENC 1 2

L

2

4

6 7 8 9 A

CN2 B

C

CN1

CTRL

PULL

PULL

D

PULSER

E

USB

F - + COM

USB SY.ENC2

2

L

4

L

L

3

5

SY.ENC1

L

1

1

3

FRONT SSCNET

BASE UNIT MODEL Q38B SERIAL 0205020E

0 1 2 3 4 5 6 7 8 9

5 6 7 8 9 A B C D E F

0 1 2 3 4 5 6 7 8 9

01234567 89ABCDEF

1

1

3 4

L 5 6

L L

7 8

L L

9 A

L L

B C

L L D

E

L L

F COM

NC

2

2 3

4

0 1 2 3 4 5 6 7 8 9

5 6 7 8 9 A B C D E

0 1 2 3 4 5 6 7 8 9

F NC COM

COM

PULL

NC

24VDC 6mA

RS-232

QX80

01234567 89ABCDEF FUSE

01234567 89ABCDEF

01234567 89ABCDEF

TREN 1 2

QY80

QX80

QI60

Q172LX

Q172EX

24VDC 4mA

12VDC 24VDC 0.5A

MT Developer

24VDC 4mA

RS-232 Q172LX Q173PX

Q172EX

MITSUBISHI

MELSERVO amplifiers and motors

MITSUBISHI

MITSUBISHI

MITSUBISHI

MITSUBISHI

USB

SSCNET connections

RS23 2

USB and RS232 connections

왎 System Requirements A personal computer with Microsoft Windows operationg system is necessary to operate the software. Pay attention to the system specifications which are listed in the table.

16

Specifications

Description

Operating system

Windows 2000/NT 4.0, Windows 98

CPU

133 MHz Pentium or higher

Memory capacity

Min. 32 MB

Hard disk capacity

About 150 MB free space

Graphics adapter

Standard graphics adapter with 800 x 600 pixles and minimum 256 colours

Additional application software

Microsoft Word 97 and Excel 97 (for document printing)

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

SOFTWARE

왎 Operating System Software Packages The beside table lists an overview of the required operating system for the motion CPUs. The systems are chosen on the basis of the operating mode (SV13/SV22) and the number of axes to be controlled.

Application

Peripheral device

Software SV13 (Motion-SFC)

Personal computer or notebook

Software SV22 (Motion-SFC)

Description

Order no.

Q172CPUN SW6RN-SV13QD SW6RN-SV22QC

Description Q173CPUN

144695

Order no.

SW6RN-SV13QB SW6RN-SV22QA

144695

All operating systems are delivered on one CD-ROM.

왎 Programming Software Package The MT Developer programming software package contains a range of high-performance programming modules for the convenient programming, monitoring, maintenance and documentation of your Motion Control System of the MELSEC System Q. The software can run using Windows 98 and Windows NT4/2000.

MT Developer Software Package Contents Item

Environment for sequence control program

Function

Description

SW6RN-GSV13P

Conveyor assembly

SW6RN-GSV22P

Virtual mechanical system environment

SW3RN-CAMP

Cam data creation

Document printing for MS-Office 97 printing for SW20RN-DOCPRNP Document MS-Office 2000 SW6RN-DOSCP Digital oscilloscope SW3RN-DOCPRNP

Maintenance environment Environment for user data development Order number

SW6RN-SNETP

Communications setup

Motion system setting, programming, monitoring and test Motion system setting, programming, monitoring and test Motion creation with Cam pattern selection and free curve setting Program and parameter data conversion as well as digital oszilloscop output to Microsoft Word/Excel for documentation and printout. System monitoring and maintenance Manager for SSCNET network

144543

Application Ranges of the Programming Software Packages

SW6RN-GSV13P Motion SV13

Software: conveyor assembly With this software constant-speed control, speed control, 1 to 4-axes linear interpolation and 2-axes circular interpolation, etc are possible. Ideal for use in standard conveyors and assembly machines.

Application examples: 앬 앬 앬 앬 앬 앬 앬

SW6RN-GSV22P Motion SV22

Electronic component assembly Inserter und feeder Conveying equipment Paint applicator Chip mounter CNC and welding machines X-Y table

앬 Linear interpolation (1 to 4-axes) 앬 Circular interpolation (1 to 2-axes) 앬 Constant-speed control and fixed-pitch

feed

앬 Speed change control 앬 Speed-positionswitching 앬 Teaching function

Software with virtual mechanical system environment and cam control This software package provides simultaneous control of multiple servo motors and offers software cam control. Ideal for use in automatic machinery. The software provides the option to replace formerly used mechanical vertical shafts, clutches, and gearings by electronic systems. Moreover, virtual and real master axes can be realized.

Application examples: 앬 앬 앬 앬 앬 앬 앬 앬

MITSUBISHI ELECTRIC

Special features:

Press feeder Food processing Packing facilities Winding machine Textile and spinning machines Printing machines and book binder Tire molder Paper-making machine

Special features: 앬 앬 앬 앬 앬

Synchronous control Electronic shaft Electronic clutch Electronic cam Draw Co

Q MOTION CONTROLLER

17

SOFTWARE

Application Ranges for Motion SV13 Software Environment Simple programming using dedicated commands By using easily understood dedicated servo command and sequence commands positioning and locus control can be programmed for your needs.

Control which is considered difficult and complex can be carried out simply using a variety of canned motion control functions.

X-Y table control ● ● ● ●

Sealing

2-axes linear interpolation 3-axes linear interpolation 2-axes circular interpolation Constant speed locus control

r2

r1

Z-axis X-axis

Y-axis

● Constant speed locus control ● Linear and circular interpolation ● High speed, high precision locus control ● Constant speed positioning

Feed control

Fixed-pitch hole drilling 2nd speed 3rd speed

Speed change

Cushion time

1st speed

Time

Pause Servo motor

Position sensor

● Speed-position control

Sensor

Rotary table indexing

Position

Speed

Speed ● Speed-switching control ● No limit of speed switching points

Time

Roll feeder

Speed

Press machine Rotary table

Time Roll feeder

Pause Servo motor ● Control unit: degree setting ● Shorter indexing ● Rotation direction indexing

● Fixed-pitch feed ● High speed, high frequency positioning ● High speed response Servo motor

18

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

SOFTWARE

Application Ranges for Motion SV22 Software Environment Easy on-screen programming using the mechanical support language. Loaded with a mechanical support language that allows easy programming of the machine mechanism. Ideal for con-

trolling automated machines such as food machines and wrappers. By freely combining a variety of software mechanism modules and cam patterns, complex synchronization control and

coordinated control can be achieved easily and low cost.

Filling machine Fill

The extremely high-speed controllers and ultra-precision positioning performance of these Mitsubishi systems make them ideal for dynamic filling processes. The flexibility of the system – for the example the ability to choose from a variety of movement profiles and cam disks – enables quick format changes, which means you can fill different containers on a single machine.

Raise/lower nozzle

Axis 2

Axis 3

Axis 1

Rolling mill The ability to synchronise the speeds of multiple motors is essential for maintaining the synchronised feed rates needed to keep the rolling mill output thickness precisely constant.

V

V + Draw

Axis 1

Axis 2

Press conveyor Mitsubishi motion controllers are also the ideal solution in applications where a large number of different axes need to be synchronised for optimum performance. In addition to precisely synchronising multiple axes (see example on the right) they guarantee smooth, jerk-free and extremely high-precision positioning.

Press machine Synchronous encoder

Main press motor Import conveyor

Material transport

Axis 4

Y-axis servo motor

Axis 3

X-axis servo motor

Axis 2 Axis 1

Palletising and sorting At the press of a button the system sorts and stacks the chosen stacking plan, supporting a choice of different stacking and warehousing plans. Curve interpolation for single or multiple axes enables dynamic positioning performance.

MITSUBISHI ELECTRIC

Seperate servo motors for lifting and feeding

Q MOTION CONTROLLER

19

SOFTWARE

Multi-processor technology with PLC CPU and Motion CPU Minimized variation in control response time With the conventional SV13/SV22, the series of machine operations were controlled by the SCPU so a variation occured in the response time per seguence scan. However, this can be minimized by the strengthened Motion SFC event processing function, so the scan time can be suppressed, and variations in product machining can be reduced.

PLC CPU cycle

MELSEC System Q I/O module

Multi-CPU method that strengthens event processing function The multi-point I/O control and monitoring operations can be appointed to the SCPU by the ladder program, and the servo control and high-speed response control can be appointed to the PCPU by the Motion SFC program. This balances the scan process and event process, and further utilizes the multi-CPU configuration.

Common memory

MELSEC System Q I/O module (PX/PY)

Motion CPU cycle

MELSEC System Q Special function module Motion module MELSEC System Q communications module

MELSEC display unit

SSCNET

Ladder description suitable for scan process

Motion SFC description suitable for event proces

(importance laid on condition control)

쏹 쏹

(Importance laid on sequential control, pursuit of event responsiveness)

Multi-point I/O control Various condition processing

쏹 쏹

Event processing

Examples of events

This process waits for the conditions to be established (event to occur) with the changes in the input signal state or device value, and carries out high-speed response control (signal output control, servo motor start and speed change, etc.) when the conditions are established.

앬 앬 앬 앬

20

Q MOTION CONTROLLER

Servo control High-speed response control

Input signal turned ON. Operation results reached constant value. Set time elapsed. Positioning was completed.

MITSUBISHI ELECTRIC

SOFTWARE

Motion SFC Programming Flow chart description which is easy-to-view and understand As the outline operation of the process control is described as a flow chart, the entire operations can be viewed at a glance. The operation details can be described as a comment so an easy-to-understand program can be created. The program has a hierarchical structure, so detailed operations can be described for each step.

Seal processing

Overview

The operation expression can be described in the original state. Compatible with 64-bit floating point operation. Various arithmetic functions including trigonometric functions, square root and natural logarithm are provided. The motion registers (#0 to #8191) have been added for Motion SFC operations.

G100 Beginning wait

G120 Cancellation Wait

F30 Data calculation

F40 Cancellation data set

Comment display

P10 F10

G200 Work ready

P20

K100 Operation start

F20

G100

G120

G150

F30

F40

G160

K200

G200

K100

Extended display

[F 30] // 1 axis real processing data calculation DOL=LONG((SIN(#100)+110F)*300) // Processing status set SET M100=X12+M120

G210 [G 200] PXO //Work ready completion sensor ON?

P10 G300

F: Operation control step G: Transition (condition wait) K: Motion control stepl

F150

P10

[K 100] 1 ABS-2 Axis 1, Axis 2, Combined speed

D 100µm D 200µm D 300mm/min

Program operation S CPU control range

PCPU control range

(Sequence CPU)

(Motion CPU)

Axis 2

Sample sequence program SP.SFCS

K0

Motion SFC program start request instruction

Sample Motion SFC program

20000

10000

Transfer

[G100] M2049 // Servo ON reception flag?

10000

20000 Axis 1

SV13/SV22 real mode

Number of start program designation

[K 10 : Real] 1 INC-2 Axis 1, 10000 PLS Axis 2, 20000 PLS Combined speed 30000 PLS/s

Servo motor start

Drive module (virtual servo motor)

[F100] //Command speed calculation (Negative speed change) DOL=# 100L+# 104L [G200] M2044 // On virtual mode?

[K 100 : Virtual] 1VF Axis 1 Speed D 0 PLS/s

Motion SFC program also can be automatically started by the parameter setting.

MITSUBISHI ELECTRIC

END

Sample mechanical system program Transmission module

SV22 virtual mode

Virtual servo motor start Output module (Cam)

(Roller)

Q MOTION CONTROLLER

21

SOFTWARE

Overview of the various program packages 왎 PLC CPU programming with GX (IEC) Developer With the software GX Developer you can comfortably create PLC programs alternatively in the form of Ladder Diagrams or Instruction Lists. GX IEC Developer provides all functions of the GX Developer and in addition meets the programming standard for the future: IEC 1131.3 (EN 61131).

왎 Motion CPU programming with MT Developer System configuration and parameter adjustment The Motion systems as well as the servo amplifiers and servo motors are configured conveniently according to selections in the menu. All specific parameters are operated. Comprehensive explanations and help functions are available for the individual servo parameters.

Motion-SFC The instructions can be chosen from a selection window when inputting the programs, the individual steps and the further processing conditions.

High-speed response using step execution method The sequence program uses a scan execution method to execute all steps with constant scanning. However, with the Motion SFC, the step execution method executes only the active steps following the shift conditions. Thus, the operation process can be reduced, and processing and response control can be realized.

Motion SFC program

Sequence program All steps are executed with constant scan

X000 PLS M100 M100 SET M101 SVST J1 J2 K1

With the Motion SFC, when several programs are started, the process is carried out with multi-task operation. Multiple steps can be simultaneously executed with parallel branching even within one program. A program that excutes multiple processes simultaneously, or a program that groups the control axis for independent movements can be created easily. A highly independent programming is possible according to the process details, so an easy-to-comprehend program can be created.

22

Q MOTION CONTROLLER

Work movement control [G 1]

M101 M2001 M2002

Multi-tasking

Only active steps are executed following shift conditions

RST M101 SET M102

PX0 //Start (PX0=ON) wait

[K 1] 1 ABS-2 axis 1, axis 2, Combined speed

D 200 µm D 202 µm D 204 mm/min.

[G 2] PX1 //1st process machining completion (PX1: ON) wait

M102 M2001 SVST J1 K2 RST M102

[K 2] 1 ABS-1 axis 1, speed

D 300 µm D 202 mm/min.

[G 3]

SET M103 M103 M2001

PX2 //2nd process machining completion (PX2: ON) wait

[F 1]

SET Y008

Set PY8 //Completion signal (PY8) ON

RST M103

END

MITSUBISHI ELECTRIC

SOFTWARE

Cam curve programming The mechanical cam curves are configured by selecting the type and freely defining the characteristic curve. The current cam curve together with information about the maximum deflection, maximum speed, acceleration curves and impact are represented graphically.

Virtual synchronisation (master shaft) Mechanical components such as drive shafts, gearing, couplings etc, are replaced by electronic systems with the aid of a virtual editor. This eliminates problems which arise with a conventional mechanical construction. The parameters of the mechanical components are programmed online. A multitude of mechanical components make this software a powerful but simple tool.

Mechanical module list Mechanism Mechanical module Function section Name Appearance

Drive module

Virtual servo motor

Used to drive the virtual axis in the mechanical system program by the servo program or JOG start.

Synchronous encoder

Used to drive the virtual axis by input pulse from an external synchronous encoder.

Virtual main shaft Virtual axis

Virtual auxiliary input axis

—

—

Mechanism Mechanical module Function section Name Appearance

Direct clutch

This is a virtual "link shaft". The rotation of the drive module is transferred to the transmission module. This is the auxiliary input axis for input to the transmission module "differential gear". It is automatically displayed when the differential gear and the gear are connected.

Roller

Used when the speed control occurs at the final output.

Ball screw

Used when the liner positioning occurs at the final output.

Output module Rotary table

Used when the angle control occurs at the final output.

Cam

Used when the control other than those shown above occurs based on the cam pattern setting data. There are two cam control modes: the two-way cam mode and the feed cam mode.

MITSUBISHI ELECTRIC

Transfers the drive module rotation to the output axis. The travel valve input from the drive module multiplied by the set gear ratio, and transferred to the output axis so that it moves in the set direction.

Gear

Transmission module

Smoothing clutch

Speed change gear

Engages/disengages the output module with the drive module rotation. When switching the clutch ONN/OFF, there is a direct clutch for direct tranfer and a smoothing clutch for acceleration/deceleration processing which occurs in accordance with the smoothing time constant setting. Depending on the application, ON/OFF mode, address mode or external input mode can be selected. As the smoothing method, the time constant setting mode or degree of slippage setting method can be selected. Used to change the speed of the output module. The speed from the input axis side multiplied by the set speed change ratio and transferred to the output axis.

Differential gear

The rotation of the auxiliary input axis substracted from the rotation of the virtual main shaft and transferred to the output axis. The rotation of the auxiliary input axis substracted from the rotation of the virtual main shaft and transferred to the output axis. (for connection to the virtual main shaft)

Q MOTION CONTROLLER

23

ACCESSORIES

왎 SSCNET Dividing Unit Dividing board Q173DV

SSCNET

CN1

SSCNET

CN2

SSCNET

CN3

SSCNET

CN4

Q173DV DATE

The dividing board is used to multiply the number of interfaces of the Q173CPUN. Up to four SSCNET-phases, each with 8 axes can be connected. In addition, the dividing board has a holder for an optional MR-BAT buffer battery to save the data of the Motion program in the event of a power failure lasting more than 200 hours (8 days).

Specifications

Q173DV

Connectable SSCNET lines

4

Applicable battery

MR-BAT

Order information

Art. no. 140586

왎 Connection Cable for SSCNET Dividing Unit Connection cable Q173DVCBL The cable connects the Q173CPUN to the SSCNET dividing board. The cables area available in 2 different lengths. Specifications

Q173DVCBL05M

Type of cable

SSCNET cable

SSCNET cable

For connection

Q173CPUN and dividing unit Q173DV

Q173CPUN and dividing unit Q173DV

m 0.5

Available length Order information

Q173DVCBL1M

1.0

Art. no. 140587

140588

왎 Battery Unit Battery unit Q170BAT

Specifications

Q170BAT

The purpose of this holder is to accommodate an optional buffer battery. The battery is required to save data if the power supply is interrupted for more than 200 hours (corresponding to 8 days).

Applicable battery

MR-BAT

Order information

Art. no. 142204

왎 Connection Cable for Battery Unit and Servo Amplifier Connection cable Q172J2BCBL

Specifications

Q172J2BCBL첸M-B

The cables connect the Q170BAT battery holder and the servo booster to the Q172CPUN, and are available in 3 different lengths.

Type of cable

SSCNET bus cable

For connection

Q172CPU and battery unit Q170BAT m 0.5 / 1.0 / 5.0

Available lenght Order information

24

Q MOTION CONTROLLER

Art. no. 142206/142207/142205

MITSUBISHI ELECTRIC

ACCESSORIES

왎 SSCNET Connection Cables Connection Cables

Specifications

MR-J2HBUS첸M

The cable MR-J2HBUS첸M connects two servo amplifiers. For detailled informations please refer to the technical catalogue MR-J2-Super.

Type of cable

SSCNET cable

For connection

MR-J2S-B/MR-J2-B with MR-J2S-B/MR-J2-B m 0.5 / 1.0 / 5.0

Available lengths Order information

Art. no. 70014 / 70012 / 70011

왎 Termination Connectors Connectors By this bus end plug the SSCNET is terminated. The termination is required to ensure a faultless network operation. The plug is connected to the end of the bus on the last servo amplifier.

Specifications

MR-A-TM

Connector type

SSCNET connector for the last servo amplifier (MR-J2S-B/MR-J2-B)

Order information

Art. no. 70004

왎 Manual Pulse Generator

0

10

90

20

80

MR-HDP01

Specifications

MR-HDP01

By this serial handwheel an external incremental setting value can be generated.

Resolution

25 pls/rev (100 pls/rev at magnification of 4)

Output voltage

Input voltage > 1 V

30

Consumtion current

Max. 60 mA kg 0.4

Weight

40

Order information

Art. no. 128728

왎 Serial absolute synchronous encoder Specifications

MR-HENC This serial absolute synchronous encoder facilitates the integration of an external system (e. g. frequency inverter) in a motion system. The inverter is operated as real master axis, e. g. synchronized in a group.

16384 pls/rev.

Direction on increase

Counter clockwise

Protection

IP52

Permissible rotation speed

4300 r/min

Perm. angular acceleration Weight Order information

MITSUBISHI ELECTRIC

MR-HENC

Resolution

4000 rad/s kg 1.5

Art. no. 138304

Q MOTION CONTROLLER

25

DIMENSIONS

Motion Controller CPUs 114,3

27,4

27,4

Q173CPUN

Q172CPUN

MODE RUN ERR. M.RUN BAT. BOOT

MODE RUN ERR. M.RUN BAT. BOOT

98

CN2

CN2

CN1

PULL

98

FRONT SSCNET

FRONT SSCNET

CN1

PULL

USB

USB

RS-232

RS-232

Motion Controller System Modules

27,4

27,4

Q172EX SY.ENC TREN 1 1 2 2

Q173PX PLS.A PLS.B 1 1 2 2 3 3

27,4

90

Q172LX TREN 1 2 3

PULSER

98

98

98

SY.ENC1

CTRL

SY.ENC2

Q172EX

26

Q173PX

Q172LX

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

DIMENSIONS

Serial Synchronous Absolute Encoder MR-HENC 68

ø14,3

ø16

56

91

ø15

B

B

1,15 2

4 x ø5,4 19,5

5 102

33 135

B

Manual Pulse Generator MR-HDP01 3,6

t = 20

3 x M4x10

20 ø60

30

50

ø50

ø80

60

40

20

90

70

16

0

80

ø70

NP

10

M3 x 6

27

8,89

7,6

3 x ø4,8

ø72

MITSUBISHI ELECTRIC

ø62

Q MOTION CONTROLLER

27

APPENDIX

Design The following tables are intended to guide you when you are designing a motion system and to help you with the selection of the required components.

More support will be given by the sales representative of MITSUBHISI ELECTRIC (see back cover).

왎 Motion System Component

Selection criterion

Type and number of motion CPU modules

Number of axes 1 to 8 axes: Q172CPUN (controls up to 8 axes per module) 9 to 96 axes: Q173CPUN (controls up to 32 axes per module)

Operating system of the motion CPU (SV13 or SV22)

Type and specification of the plant you want to control Conveyor assembly: SV13 Virtual Mechanical Editor with cam settings: SV22

Servo external signals interface modules Q172LX Extent of the wiring for the external signals

Number of external servo signals When there is a mechanical home position and dog type home position return is made or when switching from speed control to position control is required, the input DOG/CHANGE must be wired. For the detection of upper and lower limits, the inputs „FLS“ and „RLS“ are neccesarry. For stopping under speed or position control the input „STOP“ is needed.

Encoder interface modules Q172EX Number of serial absolute synchronous encoders MR-HENC

Number of serial absolute synchronous encoders used

Serial absolute synchronous encoder cable MR-JHSCBL첸M-L/H

Distance between serial absolute synchronous encoder and interface module; Requirements for the cable (standard or long life)

Number of Q173PX

Number of manual pulse generators or incremental synchronous encoders used

Manual pulse generator MR-HDP01

Number of manual pulse generators required

Interrupt module QI60

External interrupts are used for program control. An interrupt module is needed if external interrupts are specified in your application.

I/O modules

Requirements of the external equipment to be controlled.

Multiprocessor PLC CPU

Extent of the sequence program

Main base unit Extension base unit Extension cables

Number of modules used (PLC CPU, Motion CPU, Q172LX, Q172EX, Q173PX, I/O modules, intelligent function modules)

Power supply module

Power consumption of the modules Available input voltage for the power supply module

Servo amplifier and servo motors

Required power from the servo motor and number of revolutions. For details see the manuals of the servo amplifiers.

SSCNET Dividing unit Q173DV SSCNET cable Q173DVCBL첸M Battery unit Q170BAT SSCNET cable Q172J2BCBL첸M-B

One dividing unit Q173DV and one cable is needed for each Q173CPUN installed. Choose the length of the cable (0.5 or 1 m) to your needs. For each Q172CPUN in use one battery unit and one cable is needed. The length of the cable depends on the distance between Q172CPUN and the first servo amplifier.

SSCNET cable MR-J2HBUS첸M and termination con- Number of servo amplifiers and position of the servo amplifiers in the plant. nector MR-A-TM Set the axis numbers to the servo amplifiers.

왎 External Wiring Item

Selection criterion

Required power Power supply for multi CPU system, servo amplifier, Safety regulations external sensors and actors (e.g. solenoid valves) Countermeasures against interferences from electromagnetic noise Safety circuits

28

Design a circuit which stops the motion system if an error occurs with the motion controller or the servo amplifier or when the emergency stop is applied. Design a circuit which avoids a malfunction while power is instable at power-on. Design the electromagnetic brake circuit for servo motors.

Q MOTION CONTROLLER

MITSUBISHI ELECTRIC

APPENDIX

Item

Design confirmation

PLC CPU

Main base unit

Check ksteps

Extent of the sequence program

씲

Selected PLC CPU Number of CPU modules

modules

Number of other modules installed to the main base

modules 씲

Selected main base unit Extension base unit Extension cable

씲

Selected extension base unit m

Distance between main and extension base unit

씲

Selected extension cable Input voltage:

Power supply module for main base unit

modules

Number of modules installed to the extension base unit

씲 AC

V

씲 DC

A

Current consumption of the modules installed at the main base unit

씲

Selected power supply module Input voltage: Power supply module for extension base unit

씲 AC

V

씲 DC

A

Current consumption of the modules installed at the extension base unit

씲

Selected power supply module Programming cable Motion CPU

Q173PX

Interface in use (USB or RS232) 씲

Selected programming cable axes

Number of axes

씲

Selected motion CPU (type and number) Number of manual pulse generators

pieces

Number of tracking enable signal inputs

inputs 씲

Required number of manual pulse generator interface modules Q173PX (3 manual pulse generators per module)

Q172LX

Number of upper stroke limit inputs (FLS)

axes

Number of lower stroke limit inputs (RLS)

axes

Number of stop signals (STOP)

axes

Number of proximity dog signals (DOG)

axes

Number of speed-position switching signals (CHANGE)

axes 씲

Required number of servo external signals interface modules Q172LX Q172EX Dividing unit Q173DV

Number of serial absolute synchronous encoders 씲

Required number of serial absolute synchronous encoder interface modules Q172EX (2 encoders per module) pieces

Number of Q173CPUN = Required number of Q173DV

씲

Number of Q173DV = Required number of connetion cables, length as needed Cable Q173DVCBL첸M Battery unit Q170BAT

Cable Q173DVCBL05M (length 0.5 m)

pieces

Cable Q173DVCBL1M (length 1.0 m)

pieces

Number of Q172CPUN = Required number of Q170BAT

pieces

씲 씲

Number of Q170BAT = Required number of connetion cables, length as needed Cable Q172J2BCBL05M-B (length 0.5 m)

pieces

Cable Q172J2BCBL1M-B (length 1.0 m)

pieces

Cable Q172J2BCBL5M-B (length 5.0 m)

pieces

Battery A6BAT

Number of Q170BAT and Q173DV = Number of batteries

pieces

씲

Manual pulse generators MR-HDP01

Installed manual pulse generators in the motion system

pieces

씲

Serial absolute synchronous encoder MR-HENC

Serial absolute synchronous encoder in use

pieces

씲

Cable Q172J2BCBL첸M-B

Encoder cable MR-JHSCBL첸

씲

Number of installed encoders MR-HENC, distance between encoder and Q172EX, requirements (standard or long life) 씲

Selected cable (type and number) Number of servo amplifiers in the system, distance between the servo amplifiers

SSCNET cable for connection between the servo amplifiers

SSCNET cable MR-J2HBUS05M (length 0.5 m)

pieces

SSCNET cable MR-J2HBUS1M (length 1.0 m)

pieces

씲

SSCNET cable MR-J2HBUS5M (length 5.0 m)

pieces

SSCNET Termination connector MR-A-TM

One termination connector is needed for each SSCNET line.

pieces

PCMCIA card and connection cable

When you want to program the motion CPU via the SSCNET you need an additional card for your PC. The type of card (PCMCIA or ISA) depends on the type of PC used.

씲

Software

MITSUBISHI ELECTRIC will assists you to find a specially tailored software for your application.

씲

Servo amplifier and servo motors

Please consult MITSUBISHI ELECTRIC for the selection of servo amplifiers and motors.

씲

ISA card and connection cable

MITSUBISHI ELECTRIC

Q MOTION CONTROLLER

씲

29

ORDER FORM

MITSUBISHI ELECTRIC EUROPE B.V. Industrial Automation / German Branch

Company:

Gothaer Str. 8

Department: . . . . . . . . . . . . . . . . . . . . .

D-40880 Ratingen

Street:

. . . . . . . . . . . . . . . . . . . . .

Address:

. . . . . . . . . . . . . . . . . . . . .

Phone:

. . . . . . . . . . . . . . . . . . . . .

Fax:

. . . . . . . . . . . . . . . . . . . . .

Fax: +49 2102 486-7170

. . . . . . . . . . . . . . . . . . . . .

Order declaration Pos.

Number

Item (type)

Article number

Description

Remarks

Notes when ordering: When ordering, please use only the type designations and order numbers shown in this catalogue.

30

MITSUBISHI ELECTRIC

INDEX

A Absolute synchronous encoder description. . . . . . . . . . . Dimensions . . . . . . . . . . Accessory. . . . . . . . . . . . . . . Amplifier . . . . . . . . . . . . . . . Application examples programming . . . . . . . . . SV13 instructions . . . . . . . SV22 instructions . . . . . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

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. . . .

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25 27 24 15

. . . . . . . . . . . . . . . . . . . . 20 . . . . . . . . . . . . . . . . . . . . 18 . . . . . . . . . . . . . . . . . . . . 19

C Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Cam curve programming. . . . . . . . . . . . . . . . . . . . . . . . . 23 Combination possibilities . . . . . . . . . . . . . . . . . . . . . . . . . 5 Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Conveyor assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 CPUs specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 overview and combination possibilities . . . . . . . . . . . . . 5 D Design help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Dimensions accessory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Motion Controller . . . . . . . . . . . . . . . . . . . . . . . . . . 26 E Encoder. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Event processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 H Hardware components . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 I Interface modules Q172LX . . . . Q172EX . . . . Q173PX . . . . dimensions .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

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. . . .

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. . . .

. . . .

. . . .

12 13 14 26

M Manual pulse generator MR-HDP01 description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

MITSUBISHI ELECTRIC

Manual pulse generator interface module Q173PX specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Mechanical elements (software) . . . . . . . . . . . . . . . . . . . . 23 Motion Controller CPUs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Motion SFC programming . . . . . . . . . . . . . . . . . . . . . . . . 21 O Operating system software . . . . . . . . . . . . . . . . . . . . . . . 17 P PLC CPU programming . Programming application ranges . components . . . . . screenshots . . . . . Motion SFC. . . . . . Programm start . . . . . .

. . . . . . . . . . . . . . . . . . . . . . . . . 22 . . . . .

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. . . . .

. . . . .

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17 17 20 21 20

S Serial absolute synchronous interface module Q172EX description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Servo amplifiers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Servo external signals interface module Q172LX description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Servo motors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 SFC (Sequential Function Chart) . . . . . . . . . . . . . . . . . . . . 21 Software packages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 screenshots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Specifications Motion Controller overview . . . . . . . . . . . . . . . . . . . . . 5 Motion CPUs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 system modules . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 System requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 System configuration (software) . . . . . . . . . . . . . . . . . . . . 22 System overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 V Virtual mechanical system environment . . . . . . . . . . . . . . . 19

Q MOTION CONTROLLER

31

HEADQUARTERS

EUROPEAN REPRESENTATIVES

EUROPEAN REPRESENTATIVES

EURASIAN REPRESENTATIVES

MITSUBISHI ELECTRIC EUROPE EUROPE B.V. German Branch Gothaer Straße 8 D-40880 Ratingen Phone: +49 (0) 21 02 / 486-0 Fax: +49 (0) 21 02 / 4 86-1 12 e mail: [email protected] MITSUBISHI ELECTRIC FRANCE EUROPE B.V. French Branch 25, Boulevard des Bouvets F-92741 Nanterre Cedex Phone: +33 1 55 68 55 68 Fax: +33 1 55 68 56 85 e mail: [email protected] MITSUBISHI ELECTRIC . ITALY EUROPE B.V Italian Branch Via Paracelso 12 I-20041 Agrate Brianza (MI) Phone: +39 (0) 39 / 60 53 1 Fax: +39 (0) 39 / 60 53 312 e mail: [email protected] MITSUBISHI ELECTRIC SPAIN EUROPE B.V. Spanish Branch Carretera de Rubí 76-80 E-08190 Sant Cugat del Vallés Phone: +34 9 3 / 565 3131 Fax: +34 9 3 / 589 2948 e mail: — MITSUBISHI ELECTRIC UK EUROPE B.V. UK Branch Travellers Lane GB-Hatfield Herts. AL10 8 XB Phone: +44 (0) 1707 / 27 61 00 Fax: +44 (0) 1707 / 27 86 95 MITSUBISHI ELECTRIC JAPAN CORPORATION Office Tower “Z” 14 F 8-12,1 chome, Harumi Chuo-Ku Tokyo 104-6212 Phone: +81 3 / 622 160 60 Fax: +81 3 / 622 160 75 MITSUBISHI ELECTRIC USA AUTOMATION 500 Corporate Woods Parkway Vernon Hills, Illinois 60061 Phone: +1 (0) 847 / 478 21 00 Fax: +1 (0) 847 / 478 22 83

GEVA AUSTRIA Wiener Straße 89 A-2500 Baden Phone: +43 (0) 2252 / 85 55 20 Fax: +43 (0) 2252 / 488 60 e mail: [email protected] Getronics b.v. BELGIUM Control Systems Pontbeeklaan 43 B-1731 Asse-Zellik Phone: +32 (0) 2 / 4 67 17 51 Fax: +32 (0) 2 / 4 67 17 45 e mail: [email protected] TELECON CO. BULGARIA 4, A. Ljapchev Blvd. BG-1756 Sofia Phone: +359 (0) 2/ 97 44 05 8 Fax: +359 (0) 2/ 97 44 06 1 e mail: — INEA CR d.o.o. CROATIA Drvinje 63 HR-10000 Zagreb Phone: +385 (0)1/ 3667140 Fax: +385 (0)1/ 3667140 e mail: — AutoCont CZECHIA Control Systems s.r.o. Nemocnicni 12 CZ-70200 Ostrava 2 Phone: +420 (0) 69 / 615 21 11 Fax: +420 (0) 69 / 615 25 62 e mail: [email protected] louis poulsen DENMARK industri & automation Geminivej 32 DK-2670 Greve Phone: +45 (0) 43 / 95 95 95 Fax: +45 (0) 43 / 95 95 91 e mail: [email protected] UTU Elektrotehnika AS ESTONIA Pärnu mnt.160i EE-11317 Tallinn Phone: +372 (0) 6 / 51 72 80 Fax: +372 (0) 6 / 51 72 88 e mail: [email protected] UTO ELEC OY FINLAND Box 199 FIN-28101 Pori Phone: +358 (0) 9 / 550 800 Fax: +358 (0) 9 / 550 8880 e mail: — UTECO A.B.E.E. GREECE 5, Mavrogenous Str. GR-18542 Piraeus Phone: +30 10 / 42 10 050 Fax: +30 10 / 42 12 033 e mail: [email protected]

Meltrade Automatika Kft. HUNGARY 55, Harmat St. HU-1105 Budapest Phone: +36 (0)1 / 2605 602 Fax: +36 (0)1 / 2605 602 e mail: [email protected] MITSUBISHI ELECTRIC IRELAND EUROPE B.V. – Irish Branch Westgate Business Park Ballymount IRL-Dublin 24 Phone: +353 (0) 1 / 419 88 00 Fax: +353 (0) 1 / 419 88 90 e mail: [email protected] Getronics NETHERLANDS Industrial Automation B.V. Donauweg 2 B 1043 AJ Amsterdam Phone: +31 (0) 20 / 587 6700 Fax: +31 (0) 20 / 587 6839 e mail: [email protected] MPL Technology Sp. z o.o. POLAND ul. Sliczna 36 PL-31-444 Kraków Phone: +48 (0) 12 / 632 28 85 Fax: +48 (0) 12 / 632 47 82 e mail: [email protected] Sirius Trading & Services srl ROMANIA Bd. Lacul Tei nr. 1 B RO-72301 Bucuresti 2 Phone: +40 (0) 1 / 201 7147 Fax: +40 (0) 1 / 201 7148 e mail: [email protected] INEA d.o.o. SLOWENIA Stegne 11 SI-1000 Ljubljana Phone: +386 (0) 1- 513 8100 Fax: +386 (0) 1- 513 8170 e mail: [email protected] ARATRON AB SWEDEN Box 20087 S-16102 Bromma Phone: +46 (0) 8/ 40 41 600 Fax: +46 (0) 8/ 98 42 81 e mail: — ECONOTEC AG SWITZERLAND Postfach 282 CH-8309 Nürensdorf Phone: +41 (0) 1 / 838 48 11 Fax: +41 (0) 1 / 838 48 12 e mail: [email protected] GTS TURKEY Darülaceze Cad. No. 43A KAT: 2 TR-80270 Okmeydani-Istanbul Phone: +90 (0) 212 / 320 1640 Fax: +90 (0) 212 / 320 1649 e mail: [email protected]

TEHNIKON BELARUS Oktjabrskaya 16/5, Ap 704 BY-220030 Minsk Phone: +375 (0)17/ 2275704 Fax: +375 (0)17/ 2276669 e mail: [email protected] Avtomatika Sever RUSSIA Krapivnij Per. 5, Of. 402 RUS-194044 St Petersburg Phone: +7 812 5418418 Fax: +7 812 1183239 e mail: — CONSYS RUSSIA Promyshlennaya St. 42 RUS-198099 St Petersburg Phone: +7 812 / 325 36 53 Fax: +7 812 / 325 36 53 e mail: [email protected] ICOS RUSSIA Ryazanskij Prospekt, 8a, Office 100 RUS-109428 Moscow Phone: +7 095 / 232 - 0207 Fax: +7 095 / 232 - 0327 e mail: [email protected] NPP Uralelektra RUSSIA Sverdlova 11A RUS-620027 Ekaterinburg Phone: +7 34 32 / 53 27 45 Fax: +7 34 32 / 53 24 61 e mail: [email protected] STC Drive Technique RUSSIA Poslannikov per., 9, str.1 RUS-107005 Moscow Phone: +7 095 / 786 21 00 Fax: +7 095 / 786 21 01 e mail: [email protected] JV-CSC Automation UKRAINE 15, M. Raskovoyi St., Floor 10, Office 1010 U-02002 Kiev Phone: +380 44 / 238 83 16 Fax: +380 44 / 238 83 17 e mail: [email protected]

MIDDLE EAST REPRESENTATIVE SHERF Motion Techn. LTD ISRAEL Rehov Hamerkava 19 IL-58851 Holon Phone: +972 (0) 3 / 559 54 62 Fax: +972 (0) 3 / 556 01 82 e mail: —

AFRICAN REPRESENTATIVE CBI Ltd SOUTHAFRICA Private Bag 2016 ZA-1600 Isando Phone: +27 (0) 11/ 928 2000 Fax: +27 (0) 11/ 392 2354 e mail: [email protected]

Specifications subject to change without notice. Art. no. 143712-A, Printed in Germany 08.02

MITSUBISHI ELECTRIC

INDUSTRIAL AUTOMATION

Gothaer Strasse 8 Phone: +49 2102 486-0 Fax: +49 2102 486-7170 www.mitsubishi-automation.de D-40880 Ratingen Hotline: +49 1805 000-7650 [email protected] www.mitsubishi-automation.com